With the unfavorable learning environment blamed for students' subpar Science performance, new approaches to education were developed including the advancing technology and its application in the educational process. This study intended to determine the effectiveness of integrating Android-based applications in teaching chemistry for improved experiential learning of students. The study used a descriptive-experimental design using one hundred twenty (120) junior high school students enrolled in one public high school in Alaminos, Laguna, for the school year 2021-2022. The study revealed a significant difference in the pre-test and post-test scores of the students based on experiential learning constructs. Likewise, a significant relationship was found among variables suggesting that student perceived the integration of Android-based application as effective tool in teaching chemistry. The study's findings indicate that the level of experiential learning of most students in Science improved after integrating the Android-based applications. Results suggest that teachers may consider using Android-based applications in teaching Science that includes learning activities suited to the topic and can give students the opportunities to improve the level of their experiential learning. Lastly, a study using low and high-performing students may be conducted to further assess the strength of the Android Applications as to applicability and effectiveness.
Android-based applications, experiential learning, junior high school
Riza Osorio. Corresponding Author. Teacher 2, Alaminos Integrated National High School, DepEd-Laguna, Philippines
John Vincent Aliazas. Assistant Professor 3, College of Teacher Education, Laguna State Polytechnic University, Philippines
Aliazas, J. V., Panoy, J. F., Del Rosario, A. L., & Madrideo, J. (2021). Critical Success Factors of the Flexible Learning Delivery as Organizational Innovation of One State University in the Philippines. International Journal of Educational Management and Development Studies, 2(3), 61-77.
Aliazas, V. M., & Chua, E. N. (2021). Work Culture and Learning Organization Practices in Promoting Work Productivity among Public Elementary School Teachers. International Journal of Educational Management and Development Studies, 2(3), 39-60.
Astiningsih, A. D., & Partana, C. F. (2020). Using Android Media for Chemistry Learning Construction of Motivation and Metacognition Ability. International Journal of Instruction, 13(1), 279-294.
Bactong, G. G., Sabas, A. D. H., Salva, K. M. M., Lituañas, A. J. B., & Walag, A. M. P. (2021). Design, Development, and Evaluation of CHEMBOND: An Educational Mobile Application for the Mastery of Binary Ionic Bonding Topic in Chemistry. Journal of Innovations in Teaching and Learning, 1(1), 4-9.
Callo, E., & Baguna, A. (2017). Designed Facebook Classroom: Innovation for Improving Teaching-Learning Practices in Computer Science Subject. International Journal of Advanced Research, 5(6), 2026-2038.
Callo, E., & Yazon, A. (2020). Exploring the factors influencing the readiness of faculty and students on online teaching and learning as an alternative delivery mode for the new normal. Universal Journal of Educational Research, 8(8), 3509-3318.
Carada, I., Aliazas, J. V., Palacio, L., & Palacio, C. M. A. (2022). Perceived Skills and Employability of Senior High School Graduates: Basis for Youth Employment Policy. International Journal of Social Sciences and Humanities Invention, 9(01), 6759-6766.
Clayton, K., & Murphy, A. (2016). Smartphone Apps in Education: Students Create Videos to Teach Smartphone Use as Tool for Learning. Journal of Media Literacy Education, 8(2), 99-109.
Creswell, J. W., & Poth, C. N. (2016). Qualitative inquiry and research design: Choosing among five approaches. Sage publications.
Davenport, J., Rafferty, A., Timms, M., Yaron, D., & Karabinos, M. (2012). ChemVLab+: Evaluating a virtual lab tutor for high school chemistry.
Demir, K., & Akpinar, E. (2018). The Effect of Mobile Learning Applications on Students’ Academic Achievement and Attitudes Toward Mobile Learning. Malaysian Online Journal of Educational Technology, 6(2), 48-59.
Farrah, M., & Abu-Dawood, A. K. (2018). Using Mobile Phone Applications in Teaching and Learning Process. International Journal of Research in English Education, 3(2), 48-68.
Garillos, M. N. (2012). Development and Validation of Instructional Module in Biology for Second Year High School. TVC-Sta. Teresa National High School.
Huitt, W. (2011). Bloom et al.’s taxonomy of the cognitive domain. Educational psychology interactive, 22.
Jin, W., & Junio-Sabio, C. (2018). Potential use of mobile devices in selected public senior high schools in the city of Manila Philippines. International Journal of Learning, Teaching and Educational Research, 17(4), 102-114.
Jung, Sin-Ho. (2014). Stratified Fisher’s Exact Test and its Sample Size Calculation. Biometrical journal. Biometrische Zeitschrift. 56. 129-40. 10.1002/bimj.201300048.
Kacetl, J., & Klímová, B. (2019). Use of smartphone applications in english language learning—A challenge for foreign language education. Education Sciences, 9(3), 179.
Kolb, A., & Kolb, D. (2018). Eight important things to know about the experiential learning cycle. Australian educational leader, 40(3), 8-14.
Madimabe, M. P., & Omodan, B. I. (2021). Investigating the effects of e-learning as a method of curriculum dissemination for rural TVET college students. Research in Social Sciences and Technology, 6(3), 82-92.
McCarthy, M. (2016). Experiential learning theory: From theory to practice. Journal of Business & Economics Research (JBER), 14(3), 91-100.
Mulyani, M. A., Razzaq, A., Ridho, S. L. Z., & Anshari, M. (2019, October). Smartphone and Mobile Learning to Support Experiential Learning. In 2019 International Conference on Electrical Engineering and Computer Science (ICECOS) (pp. 6-9). IEEE.
Naik, G. H. (2017). Role of iOS and android mobile apps in teaching and learning chemistry. In Teaching and the Internet: The Application of Web Apps, Networking, and Online Tech for Chemistry Education (pp. 19-35). American Chemical Society.
Ortiz, A. M., & Aliazas, J. V. (2021). Multimodal Representations Strategies in Teaching Science Towards Enhancing Scientific Inquiry Skills Among Grade 4. IOER International Multidisciplinary Research Journal, 3(3), 107-118.
Panergayo, A. A. E., & Aliazas, J. V. C. (2021). Students’ Behavioral Intention to Use Learning Management System: The Mediating Role of Perceived Usefulness and Ease of Use. International Journal of Information and Education Technology, 11(11).
Panoy, J. F., Andrade, R., Febrer, L., & Ching, D. (2022). Perceived proficiency with technology and online learning expectations of students in the graduate program of one state university in the Philippines. International Journal of Information and Education Technology, 12(7), 615-624.
Petrovic, O., Babcicky, P., & Puchleitner, T. (2014). An Environment for Mobile Experiential Learning. International Association for the Development of the Information Society.
Ramos, M. J. H., & Comendador, B. E. V. (2019, May). ARTitser: A mobile augmented reality in classroom interactive learning tool on biological Science for junior high school students. In Proceedings of the 2019 5th International Conference on Education and Training Technologies (pp. 135-139).
Setu, S. A., & Basar, N. (2019). The Periodic Table Game for Interactive Learning in Chemistry. Proceeding of New Academia Learning Innovation (Nali 2019) Exhibition & Competition, 38.
Sharpe, J., Lumsden, C. J., & Woolridge, N. (2008). In silico: 3D animation and simulation of cell biology with Maya and MEL. Morgan Kaufmann.
Syaifullah, M., Harun, U., Izzah, N., Munawar, E., Roji, F., & Arifin, Z. (2021). The Application of Experiential Learning Model Perspective David A. Kolb to Improving Students Reading Skill l Tatbiq Namudz al-Ta’alum al-Tajribi ‘inda David A. Kolb li Tarqiyyah Maharah al-Qira’ah lada Talabah. Jurnal Al Bayan: Jurnal Jurusan Pendidikan Bahasa Arab, 13(2), 208-230.
Villon, N. D., & Del Rosario, A. L. P. (2022). Video Tutorial Lessons Using 5W1H Model in Enhancing the Numeracy Skills of Grade 8 Non-Numerate Students. International Journal of Multidisciplinary Research and Analysis, 5(8), 2188-2203.
Voshaar, J., Knipp, M., Loy, T., Zimmermann, J., & Johannsen, F. (2022). The impact of using a mobile app on learning success in accounting education. Accounting Education, 1-26.
Wilson, L. O. (2016). Anderson and Krathwohl Bloom’s taxonomy revised understanding the new version of Bloom’s taxonomy. The Second Principle, 1-8.
Yang, C. C., Hwang, G. J., Hung, C. M., & Tseng, S. S. (2013). An evaluation of the learning effectiveness of concept map-based science book reading via mobile devices. Journal of Educational Technology & Society, 16(3), 167-178.
Cite this article:
Osorio, R. & Aliazas, J. (2022). Integrating Android-Based applications in teaching chemistry for improved experiential learning. International Journal of Science, Technology, Engineering and Mathematics, Volume 2 Issue 4, pp. 132 - 144. DOI: https://doi.org/10.53378/352943
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